基于自适应非线性系统的微机械综合冲击保护

Kaisi Xu, Fushuai Jiang, Yangxi Zhang, Wei Zhang, Y. Hao
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引用次数: 1

摘要

本文首次提出了一种用于微机电系统冲击保护的自适应非线性系统(SANS)的原始设计。内部集成的无源硅结构,随着冲击幅度的增加,通过三种能量耗散模式,实现了抗震性的非线性增长,并表现出积极的选择性和相容性。这种方法可以实现通用批量制造,不需要额外的工艺或过度的面积扩展(290μm×320μm用于这项工作中的8cm×8cm设备)。经过验证,SANS比传统的冲击保护结构(即硬停止(~ 2次)和柔性弹簧停止(~ 1.5次))提供更高的冲击稳健性。
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Micromachined integrated shock protection via a self-adaptive nonlinear system
An original design of a self-adaptive nonlinear system (SANS) for shock protection of MEMS is presented here for the first time. The internally integrated passive silicon structure, with increasing amplitudes of shock, realizes nonlinear growth in shock resistance and reveals positive selectivity and compatibility, through three energy dissipation modes. This approach enables a generic batch fabrication requiring no additional processes or excessive area expansion (290μm×320μm for an 8cm×8cm device in this work). The SANS has been verified to provide enhanced shock robustness over conventional shock protective structures, namely the hard stop (∼2 times) and the flexible spring stop (∼1.5 times).
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